Yih-Hsun Shy scite author profile

Yih-Hsun Shy

5Publications

84Citation Statements Received

0Citation Statements Given

How they've been cited

302

How they cite others

Affiliations

Tatung University, University of Minnesota, University of Minnesota System

Publications

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Superconducting properties, electrical resistivities, and structure of NbN thin films

1973

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Superconducting properties and electrical resistivities of NbN thin films have been studied as a function of sputtering parameters, film structure, and composition. A good correlation exists between superconducting Tc's and film structure and composition regardless of the sputtering conditions used to achieve this structure. The most important parameters affecting Tc are lattice parameter, crystal structure, island structure, and impurity content. Substrate temperature, Ar/N2 ratio, and impurity content are the principal sputtering parameters affecting film structure, and thus Tc.

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Effect of austempering heat treatment on fracture toughness of copper alloyed gray iron

Hsu

Shy

et al. 2000

Materials Chemistry and Physics

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Effects of PVD sputtered coatings on the corrosion resistance of AISI 304 stainless steel

Feng¹,

Hsu²,

Lu³

et al. 2003

Materials Science and Engineering: A

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Superconducting Hc-Jc and Tc Measurements in the Nb–Ti–N, Nb–Hf–N, and Nb–V–N Ternary Systems

Yen

Toth

Shy

et al. 1967

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Superconducting critical fields, current densities and temperatures have been measured as a function of composition in the Nb–Ti–N, Nb–Hf–N and Nb–V–N ternary systems. In the Nb–Ti–N system the upper critical fields increase sharply and monotonically with increasing NbN concentration to over 130 kOe at about 90 mole % NbN. In the Nb–Hf–N system the highest upper critical-field value observed was 130 kOe for the composition Nb0.92Hf0.08N. In the Nb–Hf–N system the Tc increases monotonically with NbN concentration, in the Nb–Ti–N system a maximum in Tc exists at about 65 mole % NbN and in the Nb–V–N system a broad minimum exists between 30 and 50 mole % VN.

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Effects of titanium addition and section size on microstructure and mechanical properties of compacted graphite cast iron

Shy

Hsu

Lee

et al. 2000

Materials Science and Engineering: A

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Yih-Hsun Shy

Superconducting properties, electrical resistivities, and structure of NbN thin films

Effect of austempering heat treatment on fracture toughness of copper alloyed gray iron

Effects of PVD sputtered coatings on the corrosion resistance of AISI 304 stainless steel

Superconducting Hc-Jc and Tc Measurements in the Nb–Ti–N, Nb–Hf–N, and Nb–V–N Ternary Systems

Effects of titanium addition and section size on microstructure and mechanical properties of compacted graphite cast iron

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